11 Radio aspects
25.2023GPP7.68 Mcps Time Division Duplex (TDD) optionOverall description: Stage 2Release 17TS
11.1 UE radio transmission and reception
11.1.1 Transmitter characteristics
11.1.1.1 Transmit power
Common with 3.84Mcps TDD option.
11.1.1.2 Output RF spectrum emissions
11.1.1.2.1 Occupied bandwidth
Occupied bandwidth is a measure of the bandwidth containing 99% of the total integrated power of the transmitted spectrum, centred on the assigned channel frequency. The occupied channel bandwidth shall be less than 10 MHz based on a chip rate of 7.68 Mcps.
11.1.1.2.2 Out of band emission
Out of band emissions are unwanted emissions immediately outside the nominal channel resulting from the modulation process and non-linearity in the transmitter but excluding spurious emissions. This out of band emission limit is specified in terms of a spectrum emission mask and adjacent channel leakage power ratio (ACLR).
11.1.1.2.2.1 Spectrum emission mask
The spectrum emission mask of the UE applies to frequencies, which are between 5 MHz and 25MHz from the UE centre carrier frequency. The out of channel emission is specified relative to the RRC filtered mean power of the UE carrier. The power of any UE emission shall not exceed the levels specified in Table 11.1.1.
Table 11.1.1: Spectrum Emission Mask of higher chip rate reference configuration
Δf* in MHz |
Minimum requirement |
Measurement bandwidth |
5.0 – 7.0 |
30 kHz ** |
|
7.0 – 15 |
1 MHz *** |
|
15.0 – 17.0 |
1 MHz *** |
|
17.0 – 25.0 |
-53 dBc |
1 MHz *** |
* f is the separation between the carrier frequency and the centre of the measuring filter. |
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** The first and last measurement position with a 30 kHz filter is at f equals to 5.015 MHz and 6.985 MHz |
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*** The first and last measurement position with a 1 MHz filter is at f equals to 7.5 MHz and 24.5 MHz. As a general rule, the resolution bandwidth of the measuring equipment should be equal to the measurement bandwidth. To improve measurement accuracy, sensitivity and efficiency, the resolution bandwidth can be different from the measurement bandwidth. When the resolution bandwidth is smaller than the measurement bandwidth, the result should be integrated over the measurement bandwidth in order to obtain the equivalent noise bandwidth of the measurement bandwidth. |
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The lower limit shall be –47dBm/7.68 MHz or the minimum requirement presented in this table which ever is the higher. |
11.1.1.2.2.2 Adjacent Channel Leakage power Ratio (ACLR)
Adjacent Channel Leakage power Ratio (ACLR) is the ratio of the RRC filtered mean power centered on the assigned channel frequency to the RRC filtered mean power centered on an adjacent channel frequency.
If the adjacent channel RRC filtered mean power is greater than –50dBm measured with a 3.84 Mcps RRC filter then the ACLR shall be higher than the value specified in Table 11.1.2.
Table 11.1.2: UE ACLR of higher chip rate reference configuration
Power Class |
adjacent channel |
Chip Rate for RRC Measurement Filter |
ACLR limit |
2, 3 |
UE channel ± 7.5 MHz |
3.84 MHz |
33 dB |
2, 3 |
UE channel ± 12.5 MHz |
3.84 MHz |
43 dB |
2 ,3 |
UE channel ± 20.0 MHz |
7.68 MHz |
43 dB |
NOTE:
1) The requirement shall still be met in the presence of switching transients.
2) The ACLR requirements reflect what can be achieved with present state of the art technology.
11.1.1.2.2.3 Spurious emissions
The spurious emissions limits shall be common with 3.84 Mcps TDD option and shall be applicable for offsets greater than 25 MHz from the UE centre frequency.
11.1.2 Receiver characteristics
11.1.2.1 Reference sensitivity level
The reference sensitivity level is the minimum mean power received at the UE antenna port at which the BIT Error Ratio BER shall not exceed a specific value.
11.1.2.1.1 Minimum Requirement
The BER shall not exceed 0.001 for the parameters specified in Table 11.1.3.
Table 11.1.3: Test parameters for reference sensitivity (7.68 Mcps TDD Option)
Parameter |
Level |
Unit |
0 |
dB |
|
-105 |
dBm/7.68 MHz |
11.1.2.2 Adjacent Channel Selectivity (ACS)
Adjacent Channel Selectivity is a measure of a receiver’s ability to receive a wanted signal at its assigned channel frequency in the presence of adjacent channel signal at a given frequency offset from the centre frequency of the assigned channel. ACS is the ratio of the receive filter attenuation on the assigned channel frequency to the receiver filter attenuation on the adjacent channel(s).
11.1.2.2.1 Minimum Requirement
The ACS shall be better than the value indicated in Table 11.1.4 for the test parameters specified in Table 11.1.5 where the BER shall not exceed 0.001
Table 11.1.4: Adjacent Channel Selectivity (7.68 Mcps TDD Option)
Power Class |
Unit |
ACS |
2 |
dB |
33 |
3 |
dB |
33 |
Table 11.1.5: Test parameters for Adjacent Channel Selectivity (7.68 Mcps TDD Option)
Parameter |
Unit |
Level |
dB |
0 |
|
Îor |
dBm/7.68 MHz |
-91 |
Ioac mean power (modulated) |
dBm |
-52 |
Fuw offset (3.84 Mcps Modulated) |
MHz |
+7.5 or –7.5 |
Fuw offset (7.68 Mcps Modulated) |
MHz |
+10 or -10 |
11.1.2.3 Blocking characteristics
The blocking characteristics is a measure of the receiver ability to receive a wanted signal at is assigned channel frequency in the presence of an unwanted interferer on frequencies other than those of the spurious response or the adjacent channels without this unwanted input signal causing a degradation of the performance of the receiver beyond a specified limit. The blocking performance shall apply at all frequencies except those at which a spurious response occur.
11.1.2.3.1 Minimum Requirement
The BER shall not exceed 0.001 for the parameters specified in table 11.1.6 and table 11.1.7. For table 11.1.7 up to 24 exceptions are allowed for spurious response frequencies in each assigned frequency channel when measured using a 1MHz step size.
Table 11.1.6: In-band blocking
Parameter |
Level |
Unit |
|
0 |
dB |
||
-102 |
dBm/7.68 MHz |
||
mean power (modulated) |
-53 (for Fuw offset ±20 MHz) |
-41 (for Fuw offset ±30 MHz) |
dBm |
Table 11.1.7: Out of band blocking
Parameter |
Band 1 |
Band 2 |
Band 3 |
Unit |
0 |
0 |
0 |
dB |
|
–102 |
–102 |
–102 |
dBm/7.68 MHz |
|
(CW) |
-44 |
-30 |
-15 |
dBm |
Fuw For operation in frequency bands as definded in subclause 5.2(a) of TS25.102 [10] |
1840 <f <1870 1950 <f <1980 2055 <f <2085 |
1815 <f <1840 2085 <f <2110 |
1< f <1815 2110< f <12750 |
MHz |
Fuw For operation in frequency bands as definded in subclause 5.2(b) of TS25.102 [10] |
1790 < f < 1820 2020 < f < 2050 |
1765 < f < 1790 2050 < f < 2075 |
1 < f < 1765 2075 < f < 12750 |
MHz |
Fuw For operation in frequency bands as definded in subclause 5.2(c) of TS25.102 [10] |
1850 < f < 1880 1960 < f < 1990 |
1825 < f < 1850 1990 < f < 2015 |
1 < f < 1825 2015 < f < 12750 |
MHz |
1. For operation referenced in 5.2(a) of TS25.102 [10], from 1870 <f< 1900 MHz, 1920 <f< 1950 MHz, 1980 <f< 2010 MHz and 2025<f< 2055 MHz , the appropriate in-band blocking in table 11.1.6 or adjacent channel selectivity in section 11.1.4 shall be applied. |
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2. For operation referenced in 5.2(b) of TS25.102 [10], from 1820 < f < 1850 MHz and 1990< f < 2020 MHz, the appropriate in-band blocking in table 11.1.6 or adjacent channel selectivity in section 11.1.4 shall be applied. |
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3. For operation referenced in 5.2(c) of TS25.102 [10], from 1880 < f < 1910 MHz and 1930< f < 1960 MHz, the appropriate in-band blocking in table 11.1.6 or adjacent channel selectivity in section 11.1.4 shall be applied. |
11.1.2.4 Spurious response
Spurious response is a measure of the receiver’s ability to receive a wanted signal on its assigned channel frequency without exceeding a given degradation due to the presence of an unwanted CW interfering signal at any other frequency at which a response is obtained i.e. for which the blocking limit is not met.
11.1.2.4.1 Minimum Requirement
The BER shall not exceed 0.001 for the parameters specified in Table 11.1.8.
Table 11.1.8: Spurious Response
Parameter |
Level |
Unit |
0 |
dB |
|
–102 |
dBm/7.68 MHz |
|
(CW) |
-44 |
dBm |
Fuw |
Spurious response frequencies |
MHz |
11.1.2.5 Spurious emissions
The Spurious Emissions Power is the power of emissions generated or amplified in a receiver that appear at the UE antenna connector.
11.1.2.5.1 Minimum Requirement
The power of any spurious emission shall not exceed:
Table 11.1.9: Receiver spurious emission requirements
Band |
Maximum level |
Measurement Bandwidth |
Note |
30 MHz – 1 GHz |
-57 dBm |
100 kHz |
|
1 GHz – 1.9 GHz and |
-47 dBm |
1 MHz |
With the exception of frequencies between 25MHz below the first carrier frequency and 25MHz above the last carrier frequency used by the UE. |
1.9 GHz – 1.92 GHz and |
-57 dBm |
7.68 MHz |
With the exception of frequencies between 25MHz below the first carrier frequency and 25MHz above the last carrier frequency used by the UE. |
2.170 GHz – 12.75 GHz |
-47 dBm |
1 MHz |
11.2 Base station radio transmission and reception
11.2.1 Transmitter characteristics
11.2.1.1 Base station output power
Common with 3.84Mcps TDD option.
11.2.1.2 Output RF spectrum emissions
11.2.1.2.1 Occupied bandwidth
Occupied bandwidth is a measure of the bandwidth containing 99% of the total integrated power for transmitted spectrum and is centered on the assigned channel frequency. The occupied channel bandwidth is less than 10 MHz based on a chip rate of 7.68 Mcps.
11.2.1.2.2 Out of band emission
Out of band emissions are unwanted emissions immediately outside the channel bandwidth resulting from the modulation process and non-linearity in the transmitter but excluding spurious emissions. This out of band emission requirement is specified both in terms of a spectrum emission mask and adjacent channel power ratio for the transmitter.
11.2.1.2.2.1 Spectrum emission mask
The mask defined in Table 11.2.1 to 11.2.4 below may be mandatory in certain regions. In other regions this mask may not be applied.
For regions where this clause applies, the requirement shall be met by a base station transmitting on a single RF carrier configured in accordance with the manufacturer’s specification. Emissions shall not exceed the maximum level specified in tables 11.2.1 to 11.2.4 for the appropriate BS maximum output power, in the frequency range from f = 5 MHz to f max from the carrier frequency, where:
– f is the separation between the carrier frequency and the nominal -3dB point of the measuring filter closest to the carrier frequency.
– f_offset is the separation between the carrier frequency and the center frequency of the measuring filter.- f_offsetmax is either 25 MHz or the offset to the UMTS Tx band edge as defined in TS25.105 [11], whichever is the greater.
– f max is equal to f_offsetmax minus half of the bandwidth of the measurement filter.
Figure 11.2.1: Spectrum emission mask
Table 11.2.1: Spectrum emission mask values, BS maximum output power P 43 dBm
Frequency offset of measurement filter –3dB point, f |
Frequency offset of measurement filter centre frequency, f_offset |
Maximum level |
Measurement bandwidth |
5 MHz f < 5.2 MHz |
5.015MHz f_offset < 5.215MHz |
-17 dBm |
30 kHz |
5.2 MHz f < 6 MHz |
5.215MHz f_offset < 6.015MHz |
30 kHz |
|
(see note) |
6.015MHz f_offset < 6.5MHz |
-29 dBm |
30 kHz |
6 MHz f fmax |
6.5MHz f_offset < f_offsetmax |
-16 dBm |
1 MHz |
Table 11.2.2: Spectrum emission mask values, BS maximum output power 39 P < 43 dBm
Frequency offset of measurement filter –3dB point, f |
Frequency offset of measurement filter centre frequency, f_offset |
Maximum level |
Measurement bandwidth |
5 MHz f < 5.2 MHz |
5.015MHz f_offset < 5.215MHz |
-17 dBm |
30 kHz |
5.2 MHz f < 6 MHz |
5.215MHz f_offset < 6.015MHz |
30 kHz |
|
(see note) |
6.015MHz f_offset < 6.5MHz |
-29 dBm |
30 kHz |
6 MHz f < 15 MHz |
6.5MHz f_offset < 15.5MHz |
-16 dBm |
1 MHz |
15 MHz f fmax |
15.5MHz f_offset < f_offsetmax |
P – 59 dB |
1 MHz |
Table 11.2.3: Spectrum emission mask values, BS maximum output power 31 P < 39 dBm
Frequency offset of measurement filter –3dB point,f |
Frequency offset of measurement filter centre frequency, f_offset |
Maximum level |
Measurement bandwidth |
5 MHz f < 5.2 MHz |
5.015MHz f_offset < 5.215MHz |
P – 56 dB |
30 kHz |
5.2 MHz f < 6 MHz |
5.215MHz f_offset < 6.015MHz |
30 kHz |
|
(see note) |
6.015MHz f_offset < 6.5MHz |
P – 68 dB |
30 kHz |
6 MHz f < 15 MHz |
6.5MHz f_offset < 15.5MHz |
P – 55 dB |
1 MHz |
15 MHz f fmax |
15.5MHz f_offset < f_offsetmax |
P – 59 dB |
1 MHz |
Table 11.2.4: Spectrum emission mask values, BS maximum output power P < 31 dBm
Frequency offset of measurement filter –3dB point, f |
Frequency offset of measurement filter centre frequency, f_offset |
Maximum level |
Measurement bandwidth |
5 MHz f < 5.2 MHz |
5.015MHz f_offset < 5.215MHz |
-25 dBm |
30 kHz |
5.2 MHz f < 6 MHz |
5.215MHz f_offset < 6.015MHz |
30 kHz |
|
(see note) |
6.015MHz f_offset < 6.5MHz |
-37 dBm |
30 kHz |
6 MHz f < 15 MHz |
6.5MHz f_offset < 15.5MHz |
-24 dBm |
1 MHz |
15 MHz f fmax |
15.5MHz f_offset < f_offsetmax |
-28 dBm |
1 MHz |
NOTE: This frequency range ensures that the range of values of f_offset is continuous.
11.2.1.2.2.2 Adjacent Channel Leakage power Ratio (ACLR)
Adjacent Channel Leakage power Ratio (ACLR) is the ratio of the RRC filtered mean power centered on the assigned channel frequency to the RRC filtered mean power centered on an adjacent channel frequency. The requirements shall apply for all configurations of BS (single carrier or multi-carrier), and for all operating modes foreseen by the manufacturer’s specification.
In some cases the requirement is expressed as adjacent channel leakage power, which is the RRC filtered mean power for the given bandwidth of the victim system at the defined adjacent channel offset.
The requirement depends on the deployment scenario. Different deployment scenarios have been defined as given below.
11.2.1.2.2.2.1 Minimum requirement
The ACLR of a single carrier BS or a multi-carrier BS with contiguous carrier frequencies shall be higher than the value specified in Table 11.2.5.
Table 11.2.5: BS ACLR
BS adjacent channel offset below the first or above the last carrier frequency used |
Chip Rate for RRC Measurement Filter |
ACLR limit |
7.5 MHz |
3.84 Mcps |
45 dB |
12.5 MHz |
3.84 Mcps |
55 dB |
10.0 MHz |
7.68 Mcps |
45 dB |
20.0 MHz |
7.68 Mcps |
55 dB |
If a BS provides multiple non-contiguous single carriers or multiple non-contiguous groups of contiguous single carriers, the above requirements shall be applied individually to the single carriers or group of single carriers.
11.2.1.2.2.3 Spurious emissions
Spurious emissions are emissions which are caused by unwanted transmitter effects such as harmonics emission, parasitic emission, intermodulation products and frequency conversion products, but exclude out of band emissions. This is measured at the base station RF output port.
The requirements shall apply whatever the type of transmitter considered (single carrier or multi carrier). It applies for all transmission modes foreseen by the manufacturer.
The requirement applies at frequencies within the specified frequency ranges which are more than 25 MHz under the first carrier frequency used or more than 25 MHz above the last carrier frequency used.
The mandatory requirements for Category A and Cateogry B shall be common with 3.84 Mcps TDD option.
11.2.2 Receiver characteristics
11.2.2.1 Reference sensitivity level
The reference sensitivity level is the minimum mean power received at the antenna connector at which the BER shall not exceed the specific value indicated in section 11.2.2.1.1.
11.2.2.1.1 Minimum requirement
The UL reference measurement channel used in the simulations of TR25.895 is the 12.2 kbps channel specified in Annex A.2.1 of TS25.105 [11] with twice the spreading factor (SF=16) and mid-amble (1024 chips). The reference sensitivity level and performance of the BS shall be as specified in Table 11.2.6.
Table 11.2.6: BS reference sensitivity level
BS Class |
Reference measurement channel data rate |
BS reference sensitivity level |
BER |
Wide Area BS |
12.2 kbps |
-109 dBm |
BER shall not exceed 0.001 |
Local Area BS |
12.2 kbps |
-95 dBm |
BER shall not exceed 0.001 |
11.2.2.2 Adjacent Channel Selectivity (ACS)
Adjacent channel selectivity (ACS) is a measure of the receiver ability to receive a wanted signal at its assigned channel frequency in the presence of a single code CDMA modulated adjacent channel signal at a given frequency offset from the center frequency of the assigned channel. ACS is the ratio of the receiver filter attenuation on the assigned channel frequency to the receiver filter attenuation on the adjacent channel(s).
11.2.2.2.1 Minimum requirement
The BER shall not exceed 0.001 for the parameters specified in table 11.2.7.
Table 11.2.7: Adjacent channel selectivity
Parameter |
Level |
Unit |
|
Reference measurement channel data rate |
12.2 |
kbps |
|
Wanted signal mean power |
Wide Area BS |
-103 |
dBm |
Local Area BS |
-89 |
dBm |
|
Interfering signal mean power |
Wide Area BS |
–49 |
dBm |
Local Area BS |
–35 |
dBm |
|
Fuw offset (Modulated) |
10 |
MHz |
11.2.2.3 Blocking characteristics
The blocking characteristics is a measure of the receiver ability to receive a wanted signal at its assigned channel frequency in the presence of an unwanted interferer on frequencies other than those of the adjacent channels. The blocking performance requirement applies to interfering signals with center frequency within the ranges specified in the tables below, using a 1MHz step size.
11.2.2.3.1 Minimum requirement
The static reference performance as specified in clause 11.2.2.1.1 shall be met with a wanted and an interfering signal coupled to BS antenna input using the parameters as specified in Table 11.2.8 to 11.2.10 for the Wide Area BS and as specified in Table 11.2.11 to 11.2.13 for the Local Area BS.
Table 11.2.8: Blocking requirements for Wide Area BS for operating bands defined in 5.2(a) of TS 25.105 [11]
Centre Frequency of Interfering Signal |
Interfering Signal Mean Power |
Wanted Signal Mean Power |
Minimum Offset of Interfering Signal |
Type of Interfering Signal |
1900 – 1920 MHz, 2010 – 2025 MHz |
-40 dBm |
-103 dBm |
20 MHz |
WCDMA signal with one code |
1880 – 1900 MHz, 1990 – 2010 MHz, 2025 – 2045 MHz |
-40 dBm |
-103 dBm |
20 MHz |
WCDMA signal with one code |
1920 – 1980 MHz |
-40 dBm |
-103 dBm |
20 MHz |
WCDMA signal with one code |
1 – 1880 MHz, 1980 – 1990 MHz, 2045 – 12750 MHz |
-15 dBm |
-103 dBm |
|
CW carrier |
Table 11.2.9: Blocking requirements for Wide Area BS for operating bands defined in 5.2(b) of TS 25.105 [11]
Centre Frequency of Interfering Signal |
Interfering Signal Mean Power |
Wanted Signal Mean Power |
Minimum Offset of Interfering Signal |
Type of Interfering Signal |
1850 – 1990 MHz |
-40 dBm |
-103 dBm |
20 MHz |
WCDMA signal with one code |
1830 – 1850 MHz, 1990 – 2010 MHz |
-40 dBm |
-103 dBm |
20 MHz |
WCDMA signal with one code |
1 – 1830 MHz, 2010 – 12750 MHz |
-15 dBm |
-103 dBm |
|
CW carrier |
Table 11.2.10: Blocking requirements for Wide Area BS for operating bands defined in 5.2(c) of TS 25.105 [11]
Centre Frequency of Interfering Signal |
Interfering Signal Mean Power |
Wanted Signal Mean Power |
Minimum Offset of Interfering Signal |
Type of Interfering Signal |
1910 – 1930 MHz |
-40 dBm |
-103 dBm |
20 MHz |
WCDMA signal with one code |
1890 – 1910 MHz, 1930 – 1950 MHz |
-40 dBm |
-103 dBm |
20 MHz |
WCDMA signal with one code |
1 – 1890 MHz, 1950 – 12750 MHz |
-15 dBm |
-103 dBm |
|
CW carrier |
Table 11.2.11: Blocking requirements for Local Area BS for operating bands defined in 5.2(a) of TS25.105 [11]
Centre Frequency of Interfering Signal |
Interfering Signal mean power |
Wanted Signal mean power |
Minimum Offset of Interfering Signal |
Type of Interfering Signal |
1900 – 1920 MHz, 2010 – 2025 MHz |
-30 dBm |
–89 dBm |
20 MHz |
WCDMA signal with one code |
1880 – 1900 MHz, 1990 – 2010 MHz, 2025 – 2045 MHz |
-30 dBm |
–89 dBm |
20 MHz |
WCDMA signal with one code |
1920 – 1980 MHz |
-30 dBm |
–89 dBm |
20 MHz |
WCDMA signal with one code |
1 – 1880 MHz, 1980 – 1990 MHz, 2045 – 12750 MHz |
-15 dBm |
–89 dBm |
|
CW carrier |
Table 11.2.12: Blocking requirements for Local Area BS for operating bands defined in 5.2(b) of TS 25.105 [11]
Centre Frequency of Interfering Signal |
Interfering Signal mean power |
Wanted Signal mean power |
Minimum Offset of Interfering Signal |
Type of Interfering Signal |
1850 – 1990 MHz |
-30 dBm |
–89 dBm |
20 MHz |
WCDMA signal with one code |
1830 – 1850 MHz, 1990 – 2010 MHz |
-30 dBm |
–89 dBm |
20 MHz |
WCDMA signal with one code |
1 – 1830 MHz, 2010 – 12750 MHz |
-15 dBm |
–89 dBm |
|
CW carrier |
Table 11.2.13: Blocking requirements for Local BS for operating bands defined in 5.2(c) of TS25.105 [11]
Centre Frequency of Interfering Signal |
Interfering Signal mean power |
Wanted Signal mean power |
Minimum Offset of Interfering Signal |
Type of Interfering Signal |
1910 – 1930 MHz |
-30 dBm |
–89 dBm |
20 MHz |
WCDMA signal with one code |
1890 – 1910 MHz, 1930 – 1950 MHz |
-30 dBm |
–89 dBm |
20 MHz |
WCDMA signal with one code |
1 – 1890 MHz, 1950 – 12750 MHz |
-15 dBm |
–89 dBm |
|
CW carrier |
11.2.2.3.2 Collocation with GSM900 and/or DCS 1800
Common with 3.84 Mcps TDD option.
11.2.2.4 Spurious emissions
The spurious emissions power is the power of emissions generated or amplified in a receiver that appear at the BS antenna connector. The requirements apply to all BS with separate RX and TX antenna port. The test shall be performed when both TX and RX are on with the TX port terminated.
11.2.2.4.1 Minimum requirement
The power of any spurious emission shall not exceed:
Table 11.2.14: Receiver spurious emission requirements
Band |
Maximum level |
Measurement Bandwidth |
Note |
30 MHz – 1 GHz |
-57 dBm |
100 kHz |
|
1 GHz – 1.9 GHz and |
-47 dBm |
1 MHz |
With the exception of frequencies between 25MHz below the first carrier frequency and 25MHz above the last carrier frequency used by the BS. |
1.9 GHz – 1.98 GHz and |
-75 dBm |
7.68 MHz |
With the exception of frequencies between 25MHz below the first carrier frequency and 25MHz above the last carrier frequency used by the BS. |
2.025 GHz – 12.75 GHz |
-47 dBm |
1 MHz |
With the exception of frequencies between 25MHz below the first carrier frequency and 25MHz above the last carrier frequency used by the BS. |
Annex A (informative):
Change history
Change history |
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Date |
TSG # |
TSG Doc. |
CR |
Rev |
Subject/Comment |
Old |
New |
2005-04 |
RAN1#40bis |
R1-050343 |
Frame Structure for 7.68Mcps TDD Option |
– |
0.0.1 |
||
2005-04 |
RAN1#40bis |
R1-050344 |
Timing Advance for 7.68Mcps TDD Option |
– |
0.0.1 |
||
2005-05 |
RAN1#41 |
V0.0.1 approved by RAN1. |
0.0.1 |
0.1.0 |
|||
2005-08 |
RAN1#41 |
R1-050455 |
Services offered to higher layers by 7.68Mcps TDD option |
0.1.0 |
0.1.1 |
||
2005-08 |
RAN1#41 |
R1-050556 |
Spreading factors and burst types for 7.68Mcps TDD option |
0.1.0 |
0.1.1 |
||
2005-09 |
RAN1#42 |
R1-050974 |
V0.1.1 approved by RAN1 |
0.1.1 |
0.2.0 |
||
2005-09 |
RAN1#42 |
R1-050858 |
7.68Mcps TDD: Mapping of transport channels to physical channels |
0.2.0 |
0.2.1 |
||
2005-09 |
RAN1#42 |
R1-050859 |
7.68Mcps TDD: Paging aspects |
0.2.0 |
0.2.1 |
||
2005-09 |
RAN1#42 |
R1-050860 |
7.68Mcps TDD: PRACH Aspects |
0.2.0 |
0.2.1 |
||
2005-09 |
RAN1#42 |
R1-050861 |
7.68Mcps TDD: midamble aspects |
0.2.0 |
0.2.1 |
||
2005-09 |
RAN1#42 |
R1-050862 |
7.68Mcps TDD: Transmission of TPC and TFCI |
0.2.0 |
0.2.1 |
||
2005-09 |
RAN1#42 |
R1-050930 |
Synchronisation aspects for 7.68Mcps TDD option |
0.2.0 |
0.2.1 |
||
2005-09 |
RAN1#42 |
R1-050931 |
7.68Mcps TDD: Transmitter power control |
0.2.0 |
0.2.1 |
||
2005-10 |
RAN1#42bis |
R1-051251 |
V0.2.1 approved by RAN1 |
0.2.1 |
0.3.0 |
||
2005-10 |
RAN1#42bis |
R1-051223 |
7.68Mcps TDD option: HSDPA aspects of TS25.221 |
0.3.0 |
0.3.1 |
||
2005-10 |
RAN1#42bis |
R1-051224 |
SCH channel definition for the 7.68Mcps TDD option |
0.3.0 |
0.3.1 |
||
2005-10 |
RAN1#42bis |
R1-051226 |
Physical layer procedures for the 7.68Mcps TDD option |
0.3.0 |
0.3.1 |
||
2005-10 |
RAN1#42bis |
R1-051228 |
Tx diversity for the 7.68Mcps TDD option |
0.3.0 |
0.3.1 |
||
2005-10 |
RAN1#42bis |
R1-051230 |
7.68Mcps TDD option: beacon channel aspects |
0.3.0 |
0.3.1 |
||
2005-11 |
RAN1#43 |
R1-051564 |
V0.3.1 approved by RAN1 |
0.3.1 |
0.4.0 |
||
2005-11 |
RAN1#43 |
R1-051520 |
Transport channel processing for the 7.68Mcps TDD option |
0.4.0 |
0.4.1 |
||
2005-11 |
RAN1#43 |
R1-051522 |
Spreading and modulation for the 7.68Mcps TDD option |
0.4.0 |
0.4.1 |
||
2005-11 |
RAN1#43 |
R1-051620 |
Updated to v0.4.2 |
0.4.1 |
0.4.2 |
||
2005-11 |
TSG-RAN#30 |
RP-050829 |
v1.0.0 created for presentation to RAN plenary for information |
0.4.2 |
1.0.0 |
||
2006-02 |
RAN1#44 |
R1-060628 |
MICH Aspects for the 7.68Mcps TDD option |
1.0.0 |
1.1.0 |
||
2006-02 |
RAN1#44 |
R1-060629 |
IPDL Aspects for the 7.68Mcps TDD option |
1.0.0 |
1.1.0 |
||
2006-02 |
RAN1#44 |
R1-060728 |
Response LS from RAN3 on input to TS25.202 |
1.1.0 |
1.1.1 |
||
2006-02 |
RAN1#44 |
R1-060744 |
Response LS from RAN2 on input to TS25.202 |
1.1.0 |
1.1.1 |
||
2006-02 |
RAN1#44 |
R1-060736 |
Response LS from RAN4 on input to TS25.202 |
1.1.0 |
1.1.1 |
||
2006-03 |
RAN_31 |
RP-060117 |
v2.0.0 created for presentation to RAN plenary for approval |
1.1.1 |
2.0.0 |
||
20/03/06 |
RAN_31 |
RP-060117 |
– |
– |
Approved as v7.0.0 to put under change control |
2.0.0 |
7.0.0 |
29/09/06 |
RAN_33 |
RP-060493 |
0001 |
– |
Introduction of E-DCH for 7.68Mcps TDD |
7.0.0 |
7.1.0 |
04/03/08 |
RAN_39 |
– |
– |
– |
Creation of Release 8 further to RAN_39 decision |
7.1.0 |
8.0.0 |
07/12/09 |
SP_46 |
– |
– |
– |
Creation of Release 9 further to SA_46 decision |
8.0.0 |
9.0.0 |
21/03/11 |
SP_51 |
– |
– |
– |
Creation of Release 10 further to SA_51 decision |
9.0.0 |
10.0.0 |
2012-09 |
SP_57 |
– |
– |
– |
Update to Rel-11 version (MCC) |
10.0.0 |
11.0.0 |
2014-09 |
SP_65 |
– |
– |
– |
Update to Rel-12 version (MCC) |
11.0.0 |
12.0.0 |
2015-12 |
SP_70 |
– |
– |
– |
Update to Rel-13 version (MCC) |
12.0.0 |
13.0.0 |
Change history |
|||||||
Date |
Meeting |
TDoc |
CR |
Rev |
Cat |
Subject/Comment |
New version |
2017-03 |
RP-75 |
– |
– |
– |
– |
Promotion to Release 14 without technical change (MCC) |
14.0.0 |
2018-06 |
RP-80 |
– |
– |
– |
– |
Promotion to Release 15 without technical change (MCC) |
15.0.0 |
2020-07 |
RP-88e |
– |
– |
– |
– |
Upgrade to Rel-16 version without technical change |
16.0.0 |
2022-03 |
RP-95e |
– |
– |
– |
– |
Upgrade to Rel-17 version without technical change |
17.0.0 |